US20090183054A1 - Information recording medium, recording/reproducing apparatus and recording/reproducing method - Google Patents
Information recording medium, recording/reproducing apparatus and recording/reproducing method Download PDFInfo
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- US20090183054A1 US20090183054A1 US12/182,216 US18221608A US2009183054A1 US 20090183054 A1 US20090183054 A1 US 20090183054A1 US 18221608 A US18221608 A US 18221608A US 2009183054 A1 US2009183054 A1 US 2009183054A1
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B7/00—Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
- G11B7/007—Arrangement of the information on the record carrier, e.g. form of tracks, actual track shape, e.g. wobbled, or cross-section, e.g. v-shaped; Sequential information structures, e.g. sectoring or header formats within a track
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B20/00—Signal processing not specific to the method of recording or reproducing; Circuits therefor
- G11B20/10—Digital recording or reproducing
- G11B20/12—Formatting, e.g. arrangement of data block or words on the record carriers
- G11B20/1217—Formatting, e.g. arrangement of data block or words on the record carriers on discs
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B20/00—Signal processing not specific to the method of recording or reproducing; Circuits therefor
- G11B20/10—Digital recording or reproducing
- G11B20/18—Error detection or correction; Testing, e.g. of drop-outs
- G11B20/1883—Methods for assignment of alternate areas for defective areas
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B7/00—Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
- G11B7/004—Recording, reproducing or erasing methods; Read, write or erase circuits therefor
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B7/00—Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
- G11B7/004—Recording, reproducing or erasing methods; Read, write or erase circuits therefor
- G11B7/0045—Recording
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B7/00—Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
- G11B7/004—Recording, reproducing or erasing methods; Read, write or erase circuits therefor
- G11B7/005—Reproducing
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B20/00—Signal processing not specific to the method of recording or reproducing; Circuits therefor
- G11B20/10—Digital recording or reproducing
- G11B2020/10898—Overwriting or replacing recorded data
- G11B2020/10907—Overwriting or replacing recorded data using pseudo-overwriting, i.e. virtually or logically overwriting data on WORM media by remapping recorded blocks to alternate areas
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B20/00—Signal processing not specific to the method of recording or reproducing; Circuits therefor
- G11B20/10—Digital recording or reproducing
- G11B20/18—Error detection or correction; Testing, e.g. of drop-outs
- G11B2020/1873—Temporary defect structures for write-once discs, e.g. TDDS, TDMA or TDFL
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B2220/00—Record carriers by type
- G11B2220/20—Disc-shaped record carriers
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B2220/00—Record carriers by type
- G11B2220/20—Disc-shaped record carriers
- G11B2220/21—Disc-shaped record carriers characterised in that the disc is of read-only, rewritable, or recordable type
- G11B2220/215—Recordable discs
- G11B2220/218—Write-once discs
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B2220/00—Record carriers by type
- G11B2220/20—Disc-shaped record carriers
- G11B2220/25—Disc-shaped record carriers characterised in that the disc is based on a specific recording technology
- G11B2220/2537—Optical discs
- G11B2220/2541—Blu-ray discs; Blue laser DVR discs
Definitions
- aspects of the present invention relate to an information recording medium, a recording and/or reproducing apparatus, and a recording and/or reproducing method enabling information recorded on a medium implementing logical overwrite to be more efficiently reproduced.
- High density optical discs such as Blu-ray discs (BDs) and high-definition digital versatile discs (HD DVDs) have been developed and have begun to be distributed in the marketplace.
- BDs Blu-ray discs
- HD DVDs high-definition digital versatile discs
- methods for increasing capacities of the optical discs have been attempted, such as reduction of track intervals and pits by using a single-wave light source, and stacking a plurality of recording and/or reproducing layers in one disc.
- Such attempts can be seen from the evolution of compact discs (CDs), digital versatile discs (DVDs), the HD DVDs, and the BDs.
- a logical overwrite method has been suggested as a method of rewriting data of the BD-R disc at an identical logical address in order to more conveniently use the BD-R write-once disc.
- the drawback of this method is that, as more logical overwrite operations are performed, fragmentation of data increases, and the amount of data indicating overwritten areas and areas for replacing the overwritten areas also increases. Accordingly, data access time increases.
- FIG. 1A is a diagram illustrating a logical structure of a typical single-layer optical disc.
- the single-layer optical disc includes an arrangement of an inner zone 110 , a data zone 120 , and an outer zone 130 .
- the inner zone 110 includes a lead-in area 111 ;
- the data zone 120 includes an inner spare area 121 , a user data area 122 , and an outer spare area 123 ;
- the outer zone 130 includes a lead-out area 131 .
- Allocation of the inner spare area 121 and the outer spare area 123 is determined according to whether defect management is employed for the single-layer optical disc. If defect management is employed, replacement data for replacing defect data is recorded in these areas.
- FIG. 1B is a diagram illustrating a logical structure of a typical double-layer optical disc.
- the double-layer optical disc includes a recording layer 0 and a recording layer 1 .
- the recording layer 0 includes an arrangement of an inner zone 0 ( 140 ), a data zone 0 ( 150 ), and an outer zone 0 ( 160 ).
- the inner zone 0 ( 140 ) includes a lead-in area 141
- the data zone 0 150 includes an inner spare area 0 ( 151 ), a user data area 0 ( 152 ), and an outer spare area 0 ( 153 ).
- the recording layer 1 includes an arrangement of an inner zone 1 ( 170 ), a data zone 1 ( 180 ), and an outer zone 1 ( 190 ).
- the inner zone 1 ( 170 ) includes a lead-out area 171
- the data zone 1 ( 180 ) includes an inner spare area 1 ( 181 ), a user data area 1 ( 182 ), and an outer spare area 1 ( 183 ).
- Logical overwrite in a write-once disc will now be explained. Due to a characteristic of the medium (e.g., the write-once disc), it is impossible to physically overwrite a written area in the write-once disc. However, techniques can be implemented so that data is as if overwritten on a part of the write-once disc in which data has already been recorded. This is referred to as logical overwrite.
- FIG. 2 is a diagram illustrating a write-once disc in which three tracks are allocated according to a typical technology.
- a disc can be used after being divided into a plurality of tracks, and FIG. 2 , shows that a user data area 122 is divided into three tracks numbered 1 , 2 , 3 , and data is recorded in part of a track 1 and part of a track 2 .
- NWA indicates a next writable address.
- track 1 the next writable address is marked as NWA 1 .
- FIG. 3A is a diagram illustrating a typical technique where a logical overwrite is performed in a track by allocating a replacement area in an unrecorded area of the track.
- NWA 1 an address of the track 1
- NWA 1 an address of the track 1
- the area (A) is registered as a defect area in a defect list, or the area (A) is registered as a defect area in a separate overwrite list.
- data of the area (A) is recorded in an area (B) which begins from the NWA 1 .
- FIG. 3B is a diagram illustrating a typical technique where a logical overwrite is performed in a track by allocating a replacement area in an inner spare area 121 that is separate from the track.
- NWA 1 of the track 1 i.e., in an area (A) in which data is already recorded
- the area (A) is registered as a defect area in a defect list, or the area (A) is registered as a defect area in a separate overwrite list.
- data of the area (A) is recorded in a predetermined area (B) of the inner spare area 121 .
- a reproducing apparatus refers to the defect list or the overwrite list, and reproduces data that should be reproduced from an area that is registered in the list as a defect area from a replacement area instead.
- the defect list or the overwrite list is stored in a lead-in area or a separate system area.
- FIG. 4A is a diagram illustrating a typical example of a defect list
- FIG. 4B is a diagram illustrating a typical example of an overwrite list.
- the first entry of the defect list indicates that replacement data to replace data recorded in a defect address 100h is recorded at a replacement address 200000h.
- the second entry of the defect list indicates that replacement data to replace data recorded in a defect address 230h is recorded at a replacement address 200001h
- the third entry of the defect list indicates that replacement data to replace data recorded in a defect address 440h is recorded at a replacement address 200002h.
- Each entry illustrated in FIG. 4B is identical to that illustrated in FIG. 4A , and only the names of the lists are different from each other.
- FIG. 5A is a diagram illustrating data fragmentation that typically occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in an unrecorded area of the track.
- a file A and a file B are recorded in a track (i.e., track 1 ). It is also shown that data in an area 510 of the file A is replaced by replacement data in an area 540 , data in an area 520 of the file A is replaced by replacement data in an area 550 , and data in an area 530 of the file B is replaced by replacement data in an area 560 .
- a reproduction order thereof is performed as follows. That is, the reproducing apparatus reads a part of the file A indicated by reference number 1 and then, jumps to the area 540 that replaces the area 510 and reads data indicated by reference number 2 . Then, the reproducing apparatus returns to and reads a part of the file A indicated by reference number 3 , and then, jumps to the area 550 that replaces the area 520 and reads data indicated by reference number 4 , and then, returns again to and reads a part of the file A indicated by reference number 5 to complete a reading of the file A.
- FIG. 5B is a diagram illustrating data fragmentation that typically occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in a spare area that is separate from the track.
- a file A and a file B are recorded in a track (i.e., track 1 ). It is also shown that data in an area 510 of the file A is replaced by replacement data in an area 540 in an inner spare area 121 , data in an area 520 of the file A is replaced by replacement data in an area 550 in an outer spare area 123 , and data in an area 530 of the file B is replaced by replacement data in an area 560 of the outer spare area 123 .
- a reproduction order thereof is performed as follows. That is, the reproducing apparatus reads a part of the file A indicated by reference number 1 and then, jumps to the area 540 that replaces the area 510 and reads data indicated by reference number 2 . Then, the reproducing apparatus returns to and reads a part of the file A indicated by reference number 3 , and then, jumps to the area 550 that replaces the area 520 and reads data indicated by reference number 4 , and then, returns again to and reads a part of file A indicated by reference number 5 to complete a reading of the file A.
- aspects of the present invention provide an information recording medium, a recording and/or reproducing apparatus, and a recording and/or reproducing method in which an access time and the frequency of seek operations can be reduced in the information recording medium implementing logical overwrite, thereby allowing noise and power consumption to be reduced.
- an information recording medium includes: a first area in which user data is recorded and replacement data for replacing defect data among the user data by logical overwrite is recorded; and a second area in which the user data recorded in the first area is copied and recorded, wherein when the user data recorded in the first area is copied and recorded in the second area, the replacement data for replacing the defect data is copied and recorded in a location where the detect data would have been recorded.
- a logical start address of the information recording medium may correspond to a physical start address of the second area.
- information indicating that data from a start address to a last address of the first area is replaced by data from a start address to a last address of the second area may be recorded in a predetermined area of the information recording medium.
- the information recording medium may include a plurality of recording layers, wherein the first area comprises at least one recording layer from among the plurality of recording layers, and the second area comprises at least one other recording layer from among the plurality of recording layers.
- the at least one other recording layer included in the second area may be designated as a valid recording layer, and information on the valid recording layer may be recorded in a predetermined area of the information recording medium.
- an apparatus to record data on an information recording medium includes: a pickup to record data on the information recording medium including a first area in which user data is recorded and replacement data for replacing defect data among the user data by logical overwrite is recorded; and a control unit to control the pickup to copy and record the user data recorded in the first area in a second area of the information recording medium and to copy and record the replacement data for replacing the defect data in a location when the defect data would have been recorded, when the user data recorded in the first area is copied and recorded in the second area.
- control unit may further control the pickup to record information indicating that data from a start address to a last address of the first area is replaced by data from a start address to a last address of the second area in a predetermined area of the information recording medium.
- a method of recording data on an information recording medium includes: copying the user data recorded in the first area and recording the copied user data in a second area in the information recording medium including a first area in which user data is recorded and replacement data for replacing defect data among the user data by logical overwrite is recorded, wherein when the user data recorded in the first area is copied and recorded in the second area, the replacement data for replacing the defect data is recorded in a location where the defect data would have been recorded.
- an apparatus to reproduce data from an information recording medium including a first area in which user data is recorded and replacement data for replacing defect data among the user data by logical overwrite is recorded includes: a pickup to read data from the information recording medium; and a control unit to control the pickup to read user data from a second area of the information recording medium in which user data recorded in the first area is copied and recorded, and the replacement data for replacing the defect data is copied and recorded in a location where the defect data would have been recorded.
- a method of reproducing data from an information recording medium including a first area in which user data is recorded and replacement data for replacing defect data among the user data by logical overwrite includes: reproducing user data from a second area of the information recording medium in which user data recorded in the first area is copied and recorded, and the replacement data for replacing the defect data is copied and recorded in a location where the defect data would have been recorded.
- an information recording medium includes one or more areas containing a file including defect data, and replacement data of the defect data that is logically continuous with the file but physically fragmented from the file; and another area containing a copy of the file not including the defect data, the copy of the file being logically and physically intact with the replacement data.
- FIG. 1A is a diagram illustrating a logical structure of a typical single-layer optical disc
- FIG. 1B is a diagram illustrating a logical structure of a typical double-layer optical disc
- FIG. 2 is a diagram illustrating a write-once disc in which three tracks are allocated according to a typical technology
- FIG. 3A is a diagram illustrating a typical technique where logical overwrite is performed in a track by allocating a replacement area in an unrecorded area of the track;
- FIG. 3B is a diagram illustrating a typical technique where logical overwrite is performed in a track by allocating a replacement area in an inner spare area that is separate from the track;
- FIG. 4A is a diagram illustrating a typical example of a defect list and FIG. 4B is a diagram illustrating a typical example of an overwrite list;
- FIG. 5A is a diagram illustrating data fragmentation that typically occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in an unrecorded area of the track;
- FIG. 5B is a diagram illustrating data fragmentation that typically occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in a spare area that is separate from the track;
- FIGS. 6A and 6B are diagrams illustrating data defragmentation that occurs in a track when logical overwrite is performed by allocating a replacement area in an unrecorded area of the track according to an aspect of the present invention
- FIGS. 7A and 7B are diagrams illustrating data defragmentation that occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in a spare area that is separate from the track according to an aspect of the present invention
- FIG. 7C is a diagram illustrating an example of an overwrite list according to an aspect of the present invention.
- FIG. 8 is a diagram illustrating a disc having a plurality of recording layers to which an aspect of the present invention is applied;
- FIG. 9 is a schematic block diagram of a recoding and/or reproducing apparatus according to an aspect of the present invention.
- FIG. 10 is a block diagram of a drive in which the recording and/or reproducing apparatus illustrated in FIG. 9 is implemented according to an aspect of the present invention
- FIG. 11 is a flowchart illustrating operations of a recording method according to an aspect of the present invention.
- FIG. 12 is a flowchart illustrating operations of a reproducing method according to an aspect of the present invention.
- aspects of the present invention suggest that when a write-once disc is used, or when a write-once disc is finalized, data fragmented by logical overwrites is collected, arranged, and copied, thereby allowing the data to be read at once without a need to access many locations containing the fragmented data in order to read a defragmented data.
- FIGS. 6A and 6B are diagrams illustrating data defragmentation that occurs in a track when a logical overwrite is performed by allocating replacement areas in an unrecorded area of the track according to an aspect of the present invention.
- FIG. 6A illustrates a disc before defragmentation is performed according to an aspect of the present invention.
- the write-once disc includes an inner spare area (ISA) 610 , a user data area 620 , and an outer spare area (OSA) 630 .
- ISA inner spare area
- OSA outer spare area
- track 1 of the user data area 620 a file A and a file B are recorded.
- the file A includes portions of data numbered 1 - 5 (hereinafter referred to as data 1 through data 5 ) and the file B includes portion of data numbered 6 - 8 (hereinafter referred to as data 6 through data 8 ).
- data 2 of the file A is replaced by replacement data 9
- data 4 of the file A is replaced by replacement data 10
- data 7 of the file B is replaced by replacement data 11 .
- the data 2 , the data 4 , and the data 7 are defective data (or defect data). Accordingly, in this case, the replacement data 9 , the replacement data 10 , and the replacement data 11 are non-defective data of the respective data 2 , data 4 , and data 7 .
- the data 2 , the data 4 , and the data 7 may not be defective data, but rather, the areas of the write-once disc respectively containing the data 2 , the data 4 , and the data 7 , may be defective areas. Accordingly, in this case, the replacement data 9 is a duplicate of the data 2 , the replacement data 10 is a duplicate of the data 4 , and the replacement data 11 is a duplicate of the data 7 .
- a cause of the defective data may be due to an underlying defect in the area (i.e., defective area) containing data.
- the underlying defect in the area may prevent error-free recording (or writing) and/or reproducing (or reading) of the data or portions thereof.
- aspects of the present invention involving replacement of defective data will be discussed. However, it should be understood that aspects of the present invention are applicable to above noted cases involving defective areas but non-defective data, cases involving a mix of defective areas and defective data, and/or cases involving defective area causing erroneous recording and/or reproducing of data so as to generate defective data.
- FIG. 6B illustrates the disc of FIG. 6A after defragmentation is performed according to an aspect of the present invention.
- user data of a first area (AREA 1 ) is copied and recorded in a second area (AREA 2 ).
- AREA 2 a second area
- replacement data that replaces the defect data is copied and recorded instead. That is, referring to an arrangement of data copied into the second area (AREA 2 ), replacement data 9 that replaces data 2 is copied and recorded after data 1 . Then, replacement data 10 that replaces data 4 is copied and recorded after data 3 . Then, replacement data 11 that replaces data 7 is copied and recorded after data 6 .
- the entire data of file A and file B are recorded intact and without being fragmented in the second area (AREA 2 ).
- the first area (AREA 1 ) refers to an area of the disc containing a fragmented file or data
- the second area (AREA 2 ) refers to an area of the disc containing (or to contain) a defragmented copy of the fragmented file or data from the first area.
- replacement data refers to a non-defect data or error free data.
- FIGS. 7A and 7B are diagrams illustrating data defragmentation that occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in a spare area of the disc according to an aspect of the present invention.
- FIG. 7A illustrates a disc before defragmentation is performed according to an aspect of the present invention.
- the write-once disc includes an inner spare area (ISA) 710 , a user data area 720 , and an outer spare area (OSA) 730 .
- ISA inner spare area
- OSA outer spare area
- track 1 of the user data area 720 a file A and a file B are recorded, and it is illustrated that data 2 of the file A is replaced by replacement data 9 , data 4 of the file A is replaced by replacement data 10 , and data 7 of the file B is replaced by replacement data 11 .
- the replacement data 9 , 10 , and 11 are recorded in the ISA 710 .
- FIG. 7B illustrates the disc of FIG. 7A after defragmentation is performed according to an aspect of the present invention.
- user data of a first area (AREA 1 ) is copied and recorded in a second area (AREA 2 ).
- AWA 1 defect data
- a 2 second area
- replacement data that replaces the defect data is copied and recorded instead. That is, referring to an arrangement of data copied into the second area, replacement data 9 that replaces data 2 is copied and recorded after data 1 . Then, replacement data 10 that replaces data 4 is copied and recorded after data 3 . Then, replacement data 11 that replaces data 7 is copied and recorded after data 6 .
- the entire data of file A and file B are recorded intact and without being fragmented in the second area (AREA 2 ).
- the first area (AREA 1 ) refers to an area of the disc containing a file or data with defect data
- the second area (AREA 2 ) refers to an area of the disc containing (or to contain) a defragmented copy of the fragmented file or data from the first area and a spare area.
- a host apparatus can determine whether to perform defragmentation of the disc.
- the whole capacity of data including file system data
- an area in which the data can be recorded continuously (or intact) is greater than the size of data to be recorded, it is possible to physically and continuously record data that was fragmented due to logical overwrite or defect management of the disc. That is, fragmented data from one or more areas of a disc are defragmented by being copied in another area of the disc intact so as to be in both logical and physical sequences.
- connection thereof can be performed according to two methods.
- One method is newly forming a relationship between a logical block address (lba) and a physical sector number (psn). That is, if lba(n) corresponds to psn(n+k) in a previous relationship, a start address of a second area that is newly designated is allocated as lba 0. That is, the new relationship is formed such that lba(n) can correspond to psn(n+k+t). In this case, t may be the size of the first area.
- the other method to connect logical addresses and physical addresses after defragmentation of data is by using a typical defect list or an overwrite list. If defects occur continuously over a plurality of blocks, it is possible to register the defects in a defect list or an overwrite list as continuous intervals. For example, if the start address and end address of the first area illustrated in FIG. 7B are a and b, respectively, and the start address and end address of the second area illustrated in FIG. 7B are a′ and b′, respectively, the defect list or the overwrite list may have entries as illustrated in FIG. 7C . That is, the entries illustrated in FIG. 7C indicate that a defect area in which the start address is a and the end address is b is replaced by a replacement area in which the start address is a′ and the end address is b′.
- FIG. 8 is a diagram illustrating a disc having a plurality of recording layers to which an aspect of the present invention is applied.
- a multilayered disc includes a recording layer 0 ( 810 ), a recording layer 1 ( 820 ), a recording layer 2 ( 830 ), a recording layer 3 ( 840 ), and a recording layer 4 ( 850 ).
- fragmented data is included in the recording layer 0 ( 810 ) through the recording layer 2 ( 830 ), and the recording layer 0 ( 810 ) through the recording layer 2 ( 820 ) are designated as a first area. Further, user data (fragmented data) included in the first area is defragmented in a second area formed over the recording layer 3 ( 840 ) and the recording layer 4 ( 850 ). After performing defragmentation, the recording layer 0 ( 810 ) through the recording layer 2 ( 830 ) are designated as invalid recording layers, and the recording layer 3 ( 840 ) and the recording layer 4 ( 850 ) are designated as valid recording layers. Information on these valid recording layers is recorded in a predetermined area of the disc. In aspects of the present invention, information on these invalid recording layers may also be recorded in the predetermined area of the disc or another predetermined area of the disc.
- information on the valid recording layers may be recorded in a predetermined area 811 of the recording layer 0 ( 810 ), a predetermined area 812 of the recording layer 1 ( 820 ), a predetermined area 813 of the recording layer 2 ( 830 ), a predetermined area 814 of the recording layer 3 ( 840 ), and a predetermined area 815 of the recording layer 4 ( 850 ).
- flags (or flag) 860 on valid recording layers may be or are recorded therein.
- the flags 860 on valid recording layers are formed by 8 bits, thereby allowing valid recording layers to be indicated up to a total of 8 layers. However, in the example illustrated in FIG. 8 , recording layer up to the recording layer 4 ( 850 ) is be indicated as a valid recording layer.
- the flags 860 on valid recording layers may be formed by a number of bits other than 8.
- a valid recording layer can be indicated by setting a corresponding bit of the flags 860 to 1.
- a valid recording layer flag is recorded in each and every recording layer.
- aspects of the present invention are not limited to this, and a valid recording layer flag need only to be recorded in at least one recording layer.
- FIG. 9 is a schematic block diagram of a recoding and/or reproducing apparatus according to an aspect of the present invention.
- the recording and/or reproducing apparatus includes a write/read unit 910 and a control unit 920 .
- the write/read unit 910 records data on a write-once disc 600 which is an information recording medium according to an aspect of the present invention, and reads recorded data from the write-once disc 600 .
- the write-once disc 600 includes a first area in which user data and replacement data are recorded.
- replacement data refers to data to replace specific defect data within the user data in order to logically overwrite the defect data.
- the recording aspect of the apparatus and the reproducing aspect of the apparatus can be implemented as separate apparatuses, or can be implemented in one system as illustrated in FIG. 9 .
- the control unit 920 controls the write/read unit 910 so that data can be recorded on or read from the write-once disc 600 .
- the control unit 920 controls the pickup (not shown) of the write/read unit 910 so that the user data recorded in the first area can be copied and recorded in the second area of the write-once disc 600 , and the replacement data to replace defect data can be copied and recorded at a location where the defect data is to be (or would have been) recorded.
- control unit 920 may make a logical start address of the information recording medium to correspond to the physical start address of the second area, or may manage the address of the second area by using information indicating that the data from the start address to the last address of the first area is replaced by data from the start address to the last address in the second area.
- the first area may include one or more recording layers from the plurality of recording layers
- the second area may include one or more other recording layers from the plurality of recording layers.
- the control unit 920 may designate the one or more other recording layers included in the second area as valid recording layers, and control the pickup so that information on the valid recording layers in the second area can be recorded in a predetermined area of the write-once disc 600 .
- the control unit 920 controls the pickup so that user data including the replacement data can be read from the second area of the write-once disc. Also, the control unit 920 further controls the pickup so that the information indicating that the data from a start address to a last address of the first area is replaced by data from a start address to a last address in the second area can be read from the predetermined area of the write-once disc 600 . Also, the control unit 920 further controls the pickup so that the information on the valid recording layers (which are recording layers included in the second area and designated as valid recording layers) can be read from the predetermined area of the write-once disc 600 .
- FIG. 10 is a block diagram of a drive in which the recording and/or reproducing apparatus illustrated in FIG. 9 is implemented according to an aspect of the present invention.
- the drive includes a pickup which is constituted as the write/read unit 910 .
- the write-once disc 600 is placed in the pickup.
- the drive includes the control unit 920 that includes a host I/F 921 , a DSP 922 , an RF AMP 923 , a servo 924 , and a system controller 925 .
- the host I/F 921 receives data to be recorded together with a record command from a host apparatus (not shown).
- the system controller 925 performs initialization required for recording.
- the DSP 922 adds additional data such as a parity data for error correction of the received data to be recorded, thereby performing ECC encoding, and then, modulates the ECC encoded data via a predetermined method.
- the RF AMP 923 converts the data output from the DSP 922 into an RF signal.
- the pickup 910 records the RF signal output from the RF AMP 923 on the write-once disc 600 .
- the servo 924 servo-controls the pickup 910 by receiving a command required for servo control from the system controller 925 .
- the system controller 925 commands the pickup 910 to read recorded data or to record predetermined information such as temporary management information, in order to perform defect management according to aspects of the present invention.
- the host I/F 921 receives a reproduction command from the host apparatus (not shown).
- the system controller 925 performs initialization required for reproduction.
- the pickup 910 radiates a laser beam onto the write-once disc 600 , and outputs an optical signal obtained by receiving the laser beam reflected from the write-once disc 600 .
- the RF AMP 923 converts the optical signal output from the pickup 910 into an RF signal, and provides the modulated data obtained from the RF signal to the DSP 922 , while providing a servo signal for control obtained from the RF signal to the servo 924 .
- the DSP 922 demodulates the modulated data and outputs data obtained through ECC error correction.
- the servo 924 receives the servo signal from the RF AMP 923 and a command required for servo control received from the system controller 925 , and performs servo control of the pickup 910 .
- the host I/F 921 transmits the data received from the DSP 922 to the host apparatus.
- FIG. 11 is a flowchart illustrating operations of a recording method according to an aspect of the present invention.
- an information recording medium which includes a first area in which user data and replacement data are recorded (the replacement data referring to data that replaces specific defect data within the recorded user data in order to logically overwrite defect data)
- the user data recorded in the first area is copied and recorded in a second area of the information recording medium (operation 1110 ).
- the replacement data that replaces the defect data is also copied and recorded in a location where the defect data would have been recorded (operation 1120 ).
- FIG. 12 is a flowchart illustrating operations of a reproducing method according to an aspect of the present invention.
- An information recording medium (which includes a first area in which user data is recorded and replacement data that replaces specific defect data within the recorded user data in order to logically overwrite defect data is recorded, as well as a second area in which defragmented user data is recorded) is loaded (operation 1210 ). Then, the defragmented user data is reproduced from the second area of the information recording medium (operation 1220 ).
- the replacement data refers to data to replace the defect data in the user data, and which is copied and recorded at a location within the user data that would have been occupied with the defect data if the user data was not defragmented.
- the access time additionally expended for reproducing recorded data in the medium is (W/block size)*Q*S*2. With the increasing of W, it is highly probable that Q increases. The more the disc is used, the access time increases exponentially.
- the whole capacity of the disc is 50 GB
- the recorded data is 25 GB
- the ratio of the logical overwrite area is 5%
- the average seek time is 50 ms
- the disc block size is 2048 bytes
- fragmentation caused by logical overwrites can be improved.
- the access time can be reduced and the frequency of seek operations can be reduced, thereby reducing noise and power consumption.
- the computer readable recording medium is any data storage device that can store data which can be thereafter read by a computer system.
- Examples of the computer readable recording medium include read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tapes, floppy disks, optical data storage devices, and carrier waves (such as data transmission through the Internet).
- the computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.
- fragmentation of data occurs when portions of the data become physically fragmented into different areas. That is, if areas of a disc that contain portions of the data are defective, then the portions of the data in the defective areas of the disc are recorded in other areas of the disc that are not defective.
- the fragmented data is rewritten in a non-defective area of the disc in both logical and physical order so that the data is no longer fragmented or no longer contains defect data.
- aspects of the present invention are discussed in terms of areas that are defective, it is understood that the underlying area need not be defective, and instead, a portion of the data may be defective. Aspects of the present invention is equally applicable to such cases since fragmentation of data also occurs when defective data needs to be rewritten to another area of a write-once disc, as an area containing the defective data cannot be rewritten with non-defective (or corrected) data in the write-once disc. As the non-defective (or corrected) data is written in the another area of the write once disc, fragmentation of data occurs. In aspects of the present invention, the fragmented data, including the non-defective (or corrected) data, may be rewritten in yet another area of the disc in both logical and physical order so that the data is no longer fragmented or no longer contains defect data.
- aspects of the present invention are discussed in terms of a disc or a write-once disc, the aspects are applicable to information recording medium in general, as well as rewritable discs.
- At least one of and and/or refer to alternatives chosen from available elements so as to include one or more of the elements.
- the elements available include elements X, Y, and Z
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Abstract
Description
- This application claims the benefit of Korean Application No. 2008-2928, filed Jan. 10, 2008, in the Korean Intellectual Property Office, the disclosure of which is incorporated herein by reference.
- 1. Field of the Invention
- Aspects of the present invention relate to an information recording medium, a recording and/or reproducing apparatus, and a recording and/or reproducing method enabling information recorded on a medium implementing logical overwrite to be more efficiently reproduced.
- 2. Description of the Related Art
- High density optical discs, such as Blu-ray discs (BDs) and high-definition digital versatile discs (HD DVDs), have been developed and have begun to be distributed in the marketplace. For such optical discs, methods for increasing capacities of the optical discs have been attempted, such as reduction of track intervals and pits by using a single-wave light source, and stacking a plurality of recording and/or reproducing layers in one disc. Such attempts can be seen from the evolution of compact discs (CDs), digital versatile discs (DVDs), the HD DVDs, and the BDs. Apart from methods for increasing capacities of the optical discs, in the case of a BD-recordable (BD-R) disc, a logical overwrite method has been suggested as a method of rewriting data of the BD-R disc at an identical logical address in order to more conveniently use the BD-R write-once disc. The drawback of this method is that, as more logical overwrite operations are performed, fragmentation of data increases, and the amount of data indicating overwritten areas and areas for replacing the overwritten areas also increases. Accordingly, data access time increases.
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FIG. 1A is a diagram illustrating a logical structure of a typical single-layer optical disc. Referring toFIG. 1A , the single-layer optical disc includes an arrangement of aninner zone 110, adata zone 120, and anouter zone 130. Theinner zone 110 includes a lead-inarea 111; thedata zone 120 includes aninner spare area 121, auser data area 122, and anouter spare area 123; and theouter zone 130 includes a lead-outarea 131. Allocation of theinner spare area 121 and theouter spare area 123 is determined according to whether defect management is employed for the single-layer optical disc. If defect management is employed, replacement data for replacing defect data is recorded in these areas. -
FIG. 1B is a diagram illustrating a logical structure of a typical double-layer optical disc. Referring toFIG. 1B , the double-layer optical disc includes arecording layer 0 and arecording layer 1. Therecording layer 0 includes an arrangement of an inner zone 0 (140), a data zone 0 (150), and an outer zone 0 (160). The inner zone 0 (140) includes a lead-inarea 141, and thedata zone 0 150 includes an inner spare area 0 (151), a user data area 0 (152), and an outer spare area 0 (153). Therecording layer 1 includes an arrangement of an inner zone 1 (170), a data zone 1 (180), and an outer zone 1 (190). The inner zone 1 (170) includes a lead-outarea 171, and the data zone 1 (180) includes an inner spare area 1 (181), a user data area 1 (182), and an outer spare area 1 (183). - Logical overwrite in a write-once disc will now be explained. Due to a characteristic of the medium (e.g., the write-once disc), it is impossible to physically overwrite a written area in the write-once disc. However, techniques can be implemented so that data is as if overwritten on a part of the write-once disc in which data has already been recorded. This is referred to as logical overwrite.
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FIG. 2 is a diagram illustrating a write-once disc in which three tracks are allocated according to a typical technology. A disc can be used after being divided into a plurality of tracks, andFIG. 2 , shows that auser data area 122 is divided into three tracks numbered 1, 2, 3, and data is recorded in part of atrack 1 and part of atrack 2. InFIG. 2 , NWA indicates a next writable address. Intrack 1, the next writable address is marked as NWA 1. -
FIG. 3A is a diagram illustrating a typical technique where a logical overwrite is performed in a track by allocating a replacement area in an unrecorded area of the track. Referring toFIG. 3A , if a request to write data at an area with an address less than or below an address NWA 1 of the track 1 (i.e., in an area (A) in which data is already recorded) is received, the area (A) is registered as a defect area in a defect list, or the area (A) is registered as a defect area in a separate overwrite list. Then, data of the area (A) is recorded in an area (B) which begins from the NWA 1. -
FIG. 3B is a diagram illustrating a typical technique where a logical overwrite is performed in a track by allocating a replacement area in an innerspare area 121 that is separate from the track. Referring toFIG. 3B , if a request to write data at an area with an address less than or below an address NWA 1 of the track 1 (i.e., in an area (A) in which data is already recorded) is received, the area (A) is registered as a defect area in a defect list, or the area (A) is registered as a defect area in a separate overwrite list. Then, data of the area (A) is recorded in a predetermined area (B) of theinner spare area 121. - In the disc in which a logical overwrite operation is performed in these ways, a reproducing apparatus refers to the defect list or the overwrite list, and reproduces data that should be reproduced from an area that is registered in the list as a defect area from a replacement area instead. The defect list or the overwrite list is stored in a lead-in area or a separate system area.
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FIG. 4A is a diagram illustrating a typical example of a defect list andFIG. 4B is a diagram illustrating a typical example of an overwrite list. The first entry of the defect list indicates that replacement data to replace data recorded in adefect address 100h is recorded at areplacement address 200000h. The second entry of the defect list indicates that replacement data to replace data recorded in adefect address 230h is recorded at a replacement address 200001h, and the third entry of the defect list indicates that replacement data to replace data recorded in adefect address 440h is recorded at areplacement address 200002h. Each entry illustrated inFIG. 4B is identical to that illustrated inFIG. 4A , and only the names of the lists are different from each other. - As logical overwrite in a write-once disc is implemented in ways discussed above, if more logical overwrite operations are performed as data is recorded, data fragmentation, in which logically continuous data is physically fragmented and then recorded, increases.
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FIG. 5A is a diagram illustrating data fragmentation that typically occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in an unrecorded area of the track. Referring toFIG. 5A , a file A and a file B are recorded in a track (i.e., track 1). It is also shown that data in anarea 510 of the file A is replaced by replacement data in anarea 540, data in anarea 520 of the file A is replaced by replacement data in anarea 550, and data in anarea 530 of the file B is replaced by replacement data in anarea 560. - In this state, if a reproducing apparatus is to read the file A, a reproduction order thereof is performed as follows. That is, the reproducing apparatus reads a part of the file A indicated by
reference number 1 and then, jumps to thearea 540 that replaces thearea 510 and reads data indicated byreference number 2. Then, the reproducing apparatus returns to and reads a part of the file A indicated byreference number 3, and then, jumps to thearea 550 that replaces thearea 520 and reads data indicated byreference number 4, and then, returns again to and reads a part of the file A indicated byreference number 5 to complete a reading of the file A. -
FIG. 5B is a diagram illustrating data fragmentation that typically occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in a spare area that is separate from the track. Referring toFIG. 5B , a file A and a file B are recorded in a track (i.e., track 1). It is also shown that data in anarea 510 of the file A is replaced by replacement data in anarea 540 in an innerspare area 121, data in anarea 520 of the file A is replaced by replacement data in anarea 550 in an outerspare area 123, and data in anarea 530 of the file B is replaced by replacement data in anarea 560 of the outerspare area 123. - In this state, if a reproducing apparatus is to read the file A, a reproduction order thereof is performed as follows. That is, the reproducing apparatus reads a part of the file A indicated by
reference number 1 and then, jumps to thearea 540 that replaces thearea 510 and reads data indicated byreference number 2. Then, the reproducing apparatus returns to and reads a part of the file A indicated byreference number 3, and then, jumps to thearea 550 that replaces thearea 520 and reads data indicated byreference number 4, and then, returns again to and reads a part of file A indicated byreference number 5 to complete a reading of the file A. - If data fragmentation increases due to an increase in logical overwrite operations as described above, seek operations for replacement data occur frequently when a file is reproduced, thereby increasing the access or seek time. Also, data fragmentation increases the size of the defect list or the overwrite list, thereby making management of the list more difficult. That is, a search time of the defect list or the overwrite list increases, more time for registering new entries is needed, and more management areas for recording the defect or the overwrite lists in the lead-in area are needed.
- Aspects of the present invention provide an information recording medium, a recording and/or reproducing apparatus, and a recording and/or reproducing method in which an access time and the frequency of seek operations can be reduced in the information recording medium implementing logical overwrite, thereby allowing noise and power consumption to be reduced.
- According to an aspect of the present invention, an information recording medium includes: a first area in which user data is recorded and replacement data for replacing defect data among the user data by logical overwrite is recorded; and a second area in which the user data recorded in the first area is copied and recorded, wherein when the user data recorded in the first area is copied and recorded in the second area, the replacement data for replacing the defect data is copied and recorded in a location where the detect data would have been recorded.
- According to an aspect of the present invention, a logical start address of the information recording medium may correspond to a physical start address of the second area.
- According to an aspect of the present invention, information indicating that data from a start address to a last address of the first area is replaced by data from a start address to a last address of the second area may be recorded in a predetermined area of the information recording medium.
- According to an aspect of the present invention, the information recording medium may include a plurality of recording layers, wherein the first area comprises at least one recording layer from among the plurality of recording layers, and the second area comprises at least one other recording layer from among the plurality of recording layers.
- According to an aspect of the present invention, the at least one other recording layer included in the second area may be designated as a valid recording layer, and information on the valid recording layer may be recorded in a predetermined area of the information recording medium.
- According to another aspect of the present invention, an apparatus to record data on an information recording medium includes: a pickup to record data on the information recording medium including a first area in which user data is recorded and replacement data for replacing defect data among the user data by logical overwrite is recorded; and a control unit to control the pickup to copy and record the user data recorded in the first area in a second area of the information recording medium and to copy and record the replacement data for replacing the defect data in a location when the defect data would have been recorded, when the user data recorded in the first area is copied and recorded in the second area.
- According to an aspect of the present invention, the control unit may further control the pickup to record information indicating that data from a start address to a last address of the first area is replaced by data from a start address to a last address of the second area in a predetermined area of the information recording medium.
- According to another aspect of the present invention, a method of recording data on an information recording medium includes: copying the user data recorded in the first area and recording the copied user data in a second area in the information recording medium including a first area in which user data is recorded and replacement data for replacing defect data among the user data by logical overwrite is recorded, wherein when the user data recorded in the first area is copied and recorded in the second area, the replacement data for replacing the defect data is recorded in a location where the defect data would have been recorded.
- According to another aspect of the present invention, an apparatus to reproduce data from an information recording medium including a first area in which user data is recorded and replacement data for replacing defect data among the user data by logical overwrite is recorded includes: a pickup to read data from the information recording medium; and a control unit to control the pickup to read user data from a second area of the information recording medium in which user data recorded in the first area is copied and recorded, and the replacement data for replacing the defect data is copied and recorded in a location where the defect data would have been recorded.
- According to another aspect of the present invention, a method of reproducing data from an information recording medium including a first area in which user data is recorded and replacement data for replacing defect data among the user data by logical overwrite is recorded, includes: reproducing user data from a second area of the information recording medium in which user data recorded in the first area is copied and recorded, and the replacement data for replacing the defect data is copied and recorded in a location where the defect data would have been recorded.
- According to another aspect of the present invention, an information recording medium includes one or more areas containing a file including defect data, and replacement data of the defect data that is logically continuous with the file but physically fragmented from the file; and another area containing a copy of the file not including the defect data, the copy of the file being logically and physically intact with the replacement data.
- Additional aspects and/or advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.
- These and/or other aspects and advantages of the invention will become apparent and more readily appreciated from the following description of the aspects, taken in conjunction with the accompanying drawings of which:
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FIG. 1A is a diagram illustrating a logical structure of a typical single-layer optical disc; -
FIG. 1B is a diagram illustrating a logical structure of a typical double-layer optical disc; -
FIG. 2 is a diagram illustrating a write-once disc in which three tracks are allocated according to a typical technology; -
FIG. 3A is a diagram illustrating a typical technique where logical overwrite is performed in a track by allocating a replacement area in an unrecorded area of the track; -
FIG. 3B is a diagram illustrating a typical technique where logical overwrite is performed in a track by allocating a replacement area in an inner spare area that is separate from the track; -
FIG. 4A is a diagram illustrating a typical example of a defect list andFIG. 4B is a diagram illustrating a typical example of an overwrite list; -
FIG. 5A is a diagram illustrating data fragmentation that typically occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in an unrecorded area of the track; -
FIG. 5B is a diagram illustrating data fragmentation that typically occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in a spare area that is separate from the track; -
FIGS. 6A and 6B are diagrams illustrating data defragmentation that occurs in a track when logical overwrite is performed by allocating a replacement area in an unrecorded area of the track according to an aspect of the present invention; -
FIGS. 7A and 7B are diagrams illustrating data defragmentation that occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in a spare area that is separate from the track according to an aspect of the present invention; -
FIG. 7C is a diagram illustrating an example of an overwrite list according to an aspect of the present invention; -
FIG. 8 is a diagram illustrating a disc having a plurality of recording layers to which an aspect of the present invention is applied; -
FIG. 9 is a schematic block diagram of a recoding and/or reproducing apparatus according to an aspect of the present invention; -
FIG. 10 is a block diagram of a drive in which the recording and/or reproducing apparatus illustrated inFIG. 9 is implemented according to an aspect of the present invention; -
FIG. 11 is a flowchart illustrating operations of a recording method according to an aspect of the present invention; and -
FIG. 12 is a flowchart illustrating operations of a reproducing method according to an aspect of the present invention. - Reference will now be made in detail to the aspects of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. The aspects are described below in order to explain the present invention by referring to the figures.
- Aspects of the present invention suggest that when a write-once disc is used, or when a write-once disc is finalized, data fragmented by logical overwrites is collected, arranged, and copied, thereby allowing the data to be read at once without a need to access many locations containing the fragmented data in order to read a defragmented data.
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FIGS. 6A and 6B are diagrams illustrating data defragmentation that occurs in a track when a logical overwrite is performed by allocating replacement areas in an unrecorded area of the track according to an aspect of the present invention.FIG. 6A illustrates a disc before defragmentation is performed according to an aspect of the present invention. - Referring to
FIG. 6A , the write-once disc includes an inner spare area (ISA) 610, a user data area 620, and an outer spare area (OSA) 630. Intrack 1 of the user data area 620, a file A and a file B are recorded. The file A includes portions of data numbered 1-5 (hereinafter referred to asdata 1 through data 5) and the file B includes portion of data numbered 6-8 (hereinafter referred to asdata 6 through data 8). It is illustrated inFIG. 6A thatdata 2 of the file A is replaced byreplacement data 9,data 4 of the file A is replaced byreplacement data 10, anddata 7 of the file B is replaced byreplacement data 11. In this aspect of the present invention, thedata 2, thedata 4, and thedata 7 are defective data (or defect data). Accordingly, in this case, thereplacement data 9, thereplacement data 10, and thereplacement data 11 are non-defective data of therespective data 2,data 4, anddata 7. - In another aspect of the present invention, the
data 2, thedata 4, and thedata 7 may not be defective data, but rather, the areas of the write-once disc respectively containing thedata 2, thedata 4, and thedata 7, may be defective areas. Accordingly, in this case, thereplacement data 9 is a duplicate of thedata 2, thereplacement data 10 is a duplicate of thedata 4, and thereplacement data 11 is a duplicate of thedata 7. - In yet other aspects of the present invention, it should be understood that a cause of the defective data may be due to an underlying defect in the area (i.e., defective area) containing data. For example, the underlying defect in the area may prevent error-free recording (or writing) and/or reproducing (or reading) of the data or portions thereof.
- Hereinafter, aspects of the present invention involving replacement of defective data will be discussed. However, it should be understood that aspects of the present invention are applicable to above noted cases involving defective areas but non-defective data, cases involving a mix of defective areas and defective data, and/or cases involving defective area causing erroneous recording and/or reproducing of data so as to generate defective data.
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FIG. 6B illustrates the disc ofFIG. 6A after defragmentation is performed according to an aspect of the present invention. Referring toFIG. 6B , user data of a first area (AREA 1) is copied and recorded in a second area (AREA 2). In this case, at an address where defect data (i.e., defective data) is to be copied or located, replacement data that replaces the defect data is copied and recorded instead. That is, referring to an arrangement of data copied into the second area (AREA 2),replacement data 9 that replacesdata 2 is copied and recorded afterdata 1. Then,replacement data 10 that replacesdata 4 is copied and recorded afterdata 3. Then,replacement data 11 that replacesdata 7 is copied and recorded afterdata 6. Accordingly, the entire data of file A and file B are recorded intact and without being fragmented in the second area (AREA 2). In this aspect of the present invention, the first area (AREA 1) refers to an area of the disc containing a fragmented file or data, and the second area (AREA 2) refers to an area of the disc containing (or to contain) a defragmented copy of the fragmented file or data from the first area. In various aspects of the present invention, replacement data refers to a non-defect data or error free data. -
FIGS. 7A and 7B are diagrams illustrating data defragmentation that occurs when logical overwrite is performed in a track of a disc by allocating a replacement area in a spare area of the disc according to an aspect of the present invention.FIG. 7A illustrates a disc before defragmentation is performed according to an aspect of the present invention. - Referring to
FIG. 7A , the write-once disc includes an inner spare area (ISA) 710, a user data area 720, and an outer spare area (OSA) 730. Intrack 1 of the user data area 720, a file A and a file B are recorded, and it is illustrated thatdata 2 of the file A is replaced byreplacement data 9,data 4 of the file A is replaced byreplacement data 10, anddata 7 of the file B is replaced byreplacement data 11. As shown inFIG. 7A , thereplacement data ISA 710. -
FIG. 7B illustrates the disc ofFIG. 7A after defragmentation is performed according to an aspect of the present invention. Referring toFIG. 7B , user data of a first area (AREA 1) is copied and recorded in a second area (AREA 2). In this case, at an address where defect data (i.e., defective data) is to be copied or located, replacement data that replaces the defect data is copied and recorded instead. That is, referring to an arrangement of data copied into the second area,replacement data 9 that replacesdata 2 is copied and recorded afterdata 1. Then,replacement data 10 that replacesdata 4 is copied and recorded afterdata 3. Then,replacement data 11 that replacesdata 7 is copied and recorded afterdata 6. Accordingly, the entire data of file A and file B are recorded intact and without being fragmented in the second area (AREA 2). In this aspect of the present invention, the first area (AREA 1) refers to an area of the disc containing a file or data with defect data, and the second area (AREA 2) refers to an area of the disc containing (or to contain) a defragmented copy of the fragmented file or data from the first area and a spare area. - In this way, if fragmentation of a disc increases due to logical overwrites and defect management of the disc, a host apparatus can determine whether to perform defragmentation of the disc. In a file system, the whole capacity of data (including file system data) is confirmed, and if an area in which the data can be recorded continuously (or intact) is greater than the size of data to be recorded, it is possible to physically and continuously record data that was fragmented due to logical overwrite or defect management of the disc. That is, fragmented data from one or more areas of a disc are defragmented by being copied in another area of the disc intact so as to be in both logical and physical sequences.
- In relation to connecting logical addresses and physical addresses after defragmentation of data, the connection thereof can be performed according to two methods. One method is newly forming a relationship between a logical block address (lba) and a physical sector number (psn). That is, if lba(n) corresponds to psn(n+k) in a previous relationship, a start address of a second area that is newly designated is allocated as
lba 0. That is, the new relationship is formed such that lba(n) can correspond to psn(n+k+t). In this case, t may be the size of the first area. - The other method to connect logical addresses and physical addresses after defragmentation of data is by using a typical defect list or an overwrite list. If defects occur continuously over a plurality of blocks, it is possible to register the defects in a defect list or an overwrite list as continuous intervals. For example, if the start address and end address of the first area illustrated in
FIG. 7B are a and b, respectively, and the start address and end address of the second area illustrated inFIG. 7B are a′ and b′, respectively, the defect list or the overwrite list may have entries as illustrated inFIG. 7C . That is, the entries illustrated inFIG. 7C indicate that a defect area in which the start address is a and the end address is b is replaced by a replacement area in which the start address is a′ and the end address is b′. -
FIG. 8 is a diagram illustrating a disc having a plurality of recording layers to which an aspect of the present invention is applied. As shown inFIG. 8 , a multilayered disc includes a recording layer 0 (810), a recording layer 1 (820), a recording layer 2 (830), a recording layer 3 (840), and a recording layer 4 (850). - In
FIG. 8 , fragmented data is included in the recording layer 0 (810) through the recording layer 2 (830), and the recording layer 0 (810) through the recording layer 2 (820) are designated as a first area. Further, user data (fragmented data) included in the first area is defragmented in a second area formed over the recording layer 3 (840) and the recording layer 4 (850). After performing defragmentation, the recording layer 0 (810) through the recording layer 2 (830) are designated as invalid recording layers, and the recording layer 3 (840) and the recording layer 4 (850) are designated as valid recording layers. Information on these valid recording layers is recorded in a predetermined area of the disc. In aspects of the present invention, information on these invalid recording layers may also be recorded in the predetermined area of the disc or another predetermined area of the disc. - Referring again to
FIG. 8 , information on the valid recording layers may be recorded in apredetermined area 811 of the recording layer 0 (810), apredetermined area 812 of the recording layer 1 (820), apredetermined area 813 of the recording layer 2 (830), apredetermined area 814 of the recording layer 3 (840), and apredetermined area 815 of the recording layer 4 (850). Accordingly, flags (or flag) 860 on valid recording layers may be or are recorded therein. Theflags 860 on valid recording layers are formed by 8 bits, thereby allowing valid recording layers to be indicated up to a total of 8 layers. However, in the example illustrated inFIG. 8 , recording layer up to the recording layer 4 (850) is be indicated as a valid recording layer. In other aspects, theflags 860 on valid recording layers may be formed by a number of bits other than 8. - In aspects of the present invention, a valid recording layer can be indicated by setting a corresponding bit of the
flags 860 to 1. In the example illustrated inFIG. 8 , a valid recording layer flag is recorded in each and every recording layer. However, aspects of the present invention are not limited to this, and a valid recording layer flag need only to be recorded in at least one recording layer. -
FIG. 9 is a schematic block diagram of a recoding and/or reproducing apparatus according to an aspect of the present invention. Referring toFIG. 9 , the recording and/or reproducing apparatus includes a write/read unit 910 and acontrol unit 920. - According to control of the
control unit 920, the write/read unit 910 records data on a write-once disc 600 which is an information recording medium according to an aspect of the present invention, and reads recorded data from the write-once disc 600. The write-once disc 600 includes a first area in which user data and replacement data are recorded. In aspects of the present invention, replacement data refers to data to replace specific defect data within the user data in order to logically overwrite the defect data. The recording aspect of the apparatus and the reproducing aspect of the apparatus can be implemented as separate apparatuses, or can be implemented in one system as illustrated inFIG. 9 . - The
control unit 920 controls the write/read unit 910 so that data can be recorded on or read from the write-once disc 600. When the data is recorded, thecontrol unit 920 controls the pickup (not shown) of the write/read unit 910 so that the user data recorded in the first area can be copied and recorded in the second area of the write-once disc 600, and the replacement data to replace defect data can be copied and recorded at a location where the defect data is to be (or would have been) recorded. In this case, after the copying and recording of the user data and the replacement data, thecontrol unit 920 may make a logical start address of the information recording medium to correspond to the physical start address of the second area, or may manage the address of the second area by using information indicating that the data from the start address to the last address of the first area is replaced by data from the start address to the last address in the second area. - Also, when the write-
once disc 600 includes a plurality of recording layers, the first area may include one or more recording layers from the plurality of recording layers, and the second area may include one or more other recording layers from the plurality of recording layers. In this case, thecontrol unit 920 may designate the one or more other recording layers included in the second area as valid recording layers, and control the pickup so that information on the valid recording layers in the second area can be recorded in a predetermined area of the write-once disc 600. - When data is reproduced, the
control unit 920 controls the pickup so that user data including the replacement data can be read from the second area of the write-once disc. Also, thecontrol unit 920 further controls the pickup so that the information indicating that the data from a start address to a last address of the first area is replaced by data from a start address to a last address in the second area can be read from the predetermined area of the write-once disc 600. Also, thecontrol unit 920 further controls the pickup so that the information on the valid recording layers (which are recording layers included in the second area and designated as valid recording layers) can be read from the predetermined area of the write-once disc 600. -
FIG. 10 is a block diagram of a drive in which the recording and/or reproducing apparatus illustrated inFIG. 9 is implemented according to an aspect of the present invention. Referring toFIG. 10 , the drive includes a pickup which is constituted as the write/read unit 910. The write-once disc 600 is placed in the pickup. Also, the drive includes thecontrol unit 920 that includes a host I/F 921, aDSP 922, anRF AMP 923, aservo 924, and asystem controller 925. - When data is recorded, the host I/
F 921 receives data to be recorded together with a record command from a host apparatus (not shown). Thesystem controller 925 performs initialization required for recording. TheDSP 922 adds additional data such as a parity data for error correction of the received data to be recorded, thereby performing ECC encoding, and then, modulates the ECC encoded data via a predetermined method. TheRF AMP 923 converts the data output from theDSP 922 into an RF signal. Thepickup 910 records the RF signal output from theRF AMP 923 on the write-once disc 600. Theservo 924 servo-controls thepickup 910 by receiving a command required for servo control from thesystem controller 925. Also, when data is recorded, thesystem controller 925 commands thepickup 910 to read recorded data or to record predetermined information such as temporary management information, in order to perform defect management according to aspects of the present invention. - When data is reproduced, the host I/
F 921 receives a reproduction command from the host apparatus (not shown). Thesystem controller 925 performs initialization required for reproduction. Thepickup 910 radiates a laser beam onto the write-once disc 600, and outputs an optical signal obtained by receiving the laser beam reflected from the write-once disc 600. TheRF AMP 923 converts the optical signal output from thepickup 910 into an RF signal, and provides the modulated data obtained from the RF signal to theDSP 922, while providing a servo signal for control obtained from the RF signal to theservo 924. TheDSP 922 demodulates the modulated data and outputs data obtained through ECC error correction. Meanwhile, theservo 924 receives the servo signal from theRF AMP 923 and a command required for servo control received from thesystem controller 925, and performs servo control of thepickup 910. The host I/F 921 transmits the data received from theDSP 922 to the host apparatus. -
FIG. 11 is a flowchart illustrating operations of a recording method according to an aspect of the present invention. On an information recording medium which includes a first area in which user data and replacement data are recorded (the replacement data referring to data that replaces specific defect data within the recorded user data in order to logically overwrite defect data), the user data recorded in the first area is copied and recorded in a second area of the information recording medium (operation 1110). When the user data recorded in the first area is copied and recorded in the second area, the replacement data that replaces the defect data is also copied and recorded in a location where the defect data would have been recorded (operation 1120). -
FIG. 12 is a flowchart illustrating operations of a reproducing method according to an aspect of the present invention. An information recording medium (which includes a first area in which user data is recorded and replacement data that replaces specific defect data within the recorded user data in order to logically overwrite defect data is recorded, as well as a second area in which defragmented user data is recorded) is loaded (operation 1210). Then, the defragmented user data is reproduced from the second area of the information recording medium (operation 1220). In aspects of the present invention, the replacement data refers to data to replace the defect data in the user data, and which is copied and recorded at a location within the user data that would have been occupied with the defect data if the user data was not defragmented. - Reduction in access performance by logical overwrite will now be explained excluding effects of fragmentation that occurs as a result of defect management. For purposes of this explanation, it is assumed that the whole capacity of a medium, such as a disc, is C, the amount of recorded data therein is W, the ratio of the logically-overwritten area to the whole area therein is Q, and an average seek time thereof is S. Also, it is assumed that overwritten areas and replacement areas therein for the overwriting operations have identical distributions of probabilities (uniform distribution). The disc rotation latency is ignored.
- The access time additionally expended for reproducing recorded data in the medium is (W/block size)*Q*S*2. With the increasing of W, it is highly probable that Q increases. The more the disc is used, the access time increases exponentially.
- If the whole capacity of the disc is 50 GB, the recorded data is 25 GB, the ratio of the logical overwrite area is 5%, the average seek time is 50 ms, and the disc block size is 2048 bytes, the access time to be added is (25 GB/2048)*0.05*50 ms*2=122070 s=17 hours. From this, it can be inferred that if just 1% of overwrites occurs when about half of the whole capacity of the disc is used, an additional required time of about 3 hours would be added to the access time.
- According to aspects of the present invention as described above, fragmentation caused by logical overwrites can be improved. By doing so, when data is reproduced, the access time can be reduced and the frequency of seek operations can be reduced, thereby reducing noise and power consumption.
- Aspects of the present invention can also be embodied as computer readable codes on a computer readable recording medium. The computer readable recording medium is any data storage device that can store data which can be thereafter read by a computer system. Examples of the computer readable recording medium include read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tapes, floppy disks, optical data storage devices, and carrier waves (such as data transmission through the Internet). The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.
- As discussed above, fragmentation of data occurs when portions of the data become physically fragmented into different areas. That is, if areas of a disc that contain portions of the data are defective, then the portions of the data in the defective areas of the disc are recorded in other areas of the disc that are not defective. In aspects of the present invention, the fragmented data is rewritten in a non-defective area of the disc in both logical and physical order so that the data is no longer fragmented or no longer contains defect data.
- Although aspects of the present invention are discussed in terms of areas that are defective, it is understood that the underlying area need not be defective, and instead, a portion of the data may be defective. Aspects of the present invention is equally applicable to such cases since fragmentation of data also occurs when defective data needs to be rewritten to another area of a write-once disc, as an area containing the defective data cannot be rewritten with non-defective (or corrected) data in the write-once disc. As the non-defective (or corrected) data is written in the another area of the write once disc, fragmentation of data occurs. In aspects of the present invention, the fragmented data, including the non-defective (or corrected) data, may be rewritten in yet another area of the disc in both logical and physical order so that the data is no longer fragmented or no longer contains defect data.
- Although aspects of the present invention are discussed in terms of a disc or a write-once disc, the aspects are applicable to information recording medium in general, as well as rewritable discs.
- In various aspects, at least one of and and/or refer to alternatives chosen from available elements so as to include one or more of the elements. For example, if the elements available include elements X, Y, and Z, at least one of and and/or refer to X, Y, Z, or any combination thereof.
- Although a few embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in this embodiment without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.
Claims (30)
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Also Published As
Publication number | Publication date |
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TW200931401A (en) | 2009-07-16 |
US8291296B2 (en) | 2012-10-16 |
CN101911189A (en) | 2010-12-08 |
EP2240932B1 (en) | 2019-01-02 |
KR20090077144A (en) | 2009-07-15 |
EP2240932A1 (en) | 2010-10-20 |
TWI384464B (en) | 2013-02-01 |
EP2240932A4 (en) | 2014-05-21 |
JP5161322B2 (en) | 2013-03-13 |
CN101911189B (en) | 2012-06-13 |
WO2009088136A1 (en) | 2009-07-16 |
KR101453296B1 (en) | 2014-10-21 |
JP2011509495A (en) | 2011-03-24 |
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